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EP 1 854 397 B1 |
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EUROPEAN PATENT SPECIFICATION |
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Mention of the grant of the patent: |
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22.07.2009 Bulletin 2009/30 |
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Date of filing: 10.05.2007 |
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International Patent Classification (IPC):
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Medical instrument having a catheter and method for using a catheter
Medizinisches Instrument mit einem Katheter und Verfahren zur Verwendung eines Katheters
Instrument médical comportant un cathéter et un procédé pour utiliser un cathéter
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Designated Contracting States: |
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DE FR GB |
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Priority: |
11.05.2006 US 432674
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Date of publication of application: |
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14.11.2007 Bulletin 2007/46 |
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Proprietor: ETHICON ENDO-SURGERY, INC. |
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Cincinnati, OH 45242-2839 (US) |
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Inventor: |
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- Long, Gary L.
Cincinnati, Ohio 45227 (US)
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Representative: Tunstall, Christopher Stephen et al |
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Carpmaels & Ransford
43-45 Bloomsbury Square London WC1A 2RA London WC1A 2RA (GB) |
(56) |
References cited: :
EP-A- 1 310 206 WO-A2-01/82814 US-A- 6 071 277 US-A1- 2002 147 445
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WO-A-99/12489 JP-A- 59 181 124 US-A1- 2002 087 208 US-A1- 2006 089 627
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Note: Within nine months from the publication of the mention of the grant of the European
patent, any person may give notice to the European Patent Office of opposition to
the European patent
granted. Notice of opposition shall be filed in a written reasoned statement. It shall
not be deemed to
have been filed until the opposition fee has been paid. (Art. 99(1) European Patent
Convention).
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[0001] Field of the Invention
[0002] The present invention is related generally to medical equipment, and more particularly
to a medical instrument having a medical catheter and to a method for using a medical
catheter.
[0003] Background of the Invention
[0004] Examples of known catheters include, without limitation, flexible insertion tubes
of endoscopes (including flexible insertion tubes of colonoscopes and enteroscopes).
The insertion tube has an articulatable distal end portion controlled by wires running
from the distal end portion to control knobs on the handle of the endoscope. A wide
angle video camera in the distal end of the insertion tube permits medical observation.
Medical devices, such as a medical needle-knife or a medical snare, are part of an
endoscopic system and are insertable into the working channel(s) of the insertion
tube of the endoscope and are translatable to extend from the distal end portion for
medical treatment. In use, the distal end of the insertion tube is inserted into a
body lumen of a patient. The user manually pushes on a proximal tube portion to advance
the distal end of the insertion tube within the body lumen for medical observation
and/or medical treatment. In a serpentine body lumen, such as the colon, the articulatable
distal end of the insertion tube can become misaligned in the body lumen and become
blocked by lumen tissue from further advancement. Then, if the user further pushes
on the proximal tube portion, the insertion tube forms undesirable loops which the
user must correct before realigning the distal end of the insertion tube and further
advancing the insertion tube within the body lumpen.
U.S. Patent 6,866,626 discloses performing a colonoscopy using a self-propelled capsule connected to the
distal end of an umbilicus, wherein electrodes on the capsule stimulate muscular colon
tissue to contract thereby advancing the capsule within the colon. Other catheter
devices which incorporate electrodes are known. One example disclosed in
WO 99/12489 is a vein ligation catheter, in which splayed electrode leads may be associated with
a web type covering.
[0005] Still, scientists and engineers continue to seek improved medical instruments having
a catheter and improved methods for using a catheter.
[0006] Summary of the Invention
[0007] A first expression of an embodiment of the invention is for a medical instrument
including a medical catheter. The medical catheter has a distal end, a centerline,
a circumferentially-protruding first pod, and a circumferentially-protruding second
pod. The distal end is insertable within a body lumen of a patient having muscular
lumen tissue surrounding the body lumen. The centerline defines a longitudinal axis
when the medical catheter is in an unflexed state. The first pod has a first exterior
surface with a first surface portion. The first surface portion includes an energizable
first electrode pair of circumferentially-spaced-apart electrodes. The first surface
portion has a shape adapted to advance the first pod within the body lumen upon contraction
of muscular lumen tissue contacting an energized first electrode pair. The second
pod has a second exterior surface with a second surface portion. The second surface
portion includes an energizable second electrode pair of circumferentially-spaced-apart
electrodes. The second surface portion has a shape adapted to advance the second pod
within the body lumen upon contraction of muscular lumen tissue contacting an energized
second electrode pair. The second pod is proximally longitudinally spaced apart from
the first pod.
[0008] A first expression of an alternate embodiment of the invention is for a medical instrument
including a medical catheter and a controller. The medical catheter is a sheath and
is adapted for installation over a flexible endoscope insertion tube. The installed
medical catheter includes a distal end, a centerline, a circumferentially-protruding
first pod, and a circumferentially-protruding second pod. The distal end is insertable
within a body lumen of a patient having muscular lumen tissue surrounding the body
lumen. The centerline defines a longitudinal axis when the installed medical catheter
is in an unflexed state. The first pod has a first exterior surface with a first surface
portion. The first surface portion includes an energizable first electrode pair of
circumferentially-spaced-apart electrodes. The first surface portion has a shape adapted
to advance the first pod within the body lumen upon contraction of muscular lumen
tissue contacting an energized first electrode pair. The second pod has a second exterior
surface with a second surface portion. The second surface portion includes an energizable
second pair of circumferentially-spaced-apart electrodes. The second surface portion
has a shape adapted to advance the second pod within the body lumen upon contraction
of muscular lumen tissue contacting an energized second electrode pair. The second
pod is proximally longitudinally spaced apart from the first pod. The controller is
adapted to energize the first electrode pair for contraction of muscular lumen tissue
contacting the first electrode pair and is adapted to energize the second electrode
pair for contraction of muscular lumen tissue contacting the second electrode pair.
[0009] The medical catheter includes a distal end, a centerline, a circumferentially-protruding
first pod, and a circumferentially-protruding second pod. The distal end is insertable
within a body lumen of a patient having muscular lumen tissue surrounding the body
lumen. The centerline defines a longitudinal axis when the medical catheter is in
an unflexed state. The first pod has a first exterior surface with a first surface
portion. The first surface portion includes an energizable first electrode pair of
circumferentially-spaced-apart electrodes. The first surface portion has a shape adapted
to advance the first pod within the body lumen upon contraction of muscular lumen
tissue contacting an energized first electrode pair. The first pod includes an inflatable
first balloon, wherein the first exterior surface is an inflated exterior surface
of the first balloon. The second pod has a second exterior surface with a second surface
portion. The second surface portion includes an energizable second pair of circumferentially-spaced-apart
electrodes. The second surface portion has a shape adapted to advance the second pod
within the body lumen upon contraction of muscular lumen tissue contacting an energized
second electrode pair. The second pod is proximally longitudinally spaced apart from
the first pod. The second pod includes an inflatable second balloon, wherein the second
exterior surface is an inflated exterior surface of the second balloon. The method
includes inserting the distal end within the body lumen. The method also includes
manually advancing the medical catheter within the body lumen a first distance with
the first and second balloons deflated and with the first and second electrode pairs
not energized. The method also includes inflating the first and second balloons. The
method also includes energizing the first electrode pair after the first balloon has
been inflated. The method also includes energizing the second electrode pair after
the second balloon has been inflated.
[0010] Several benefits and advantages are obtained from one or more of the expressions
of several embodiments. In one example, the pods are disposed proximate the distal
end so that the self-advancing medical catheter will not form undesirable loops, as
can be appreciated by those skilled in the art. In the same or a different example,
each pod includes an inflatable balloon which supports the electrodes, which is deflated
(resulting in a smaller catheter transverse cross-sectional size within the body lumen)
when manual advancement of the medical catheter within the body lumen is desired,
and which is inflated only when self-advancement of the medical catheter within the
body lumen is desired. In the same or a different example, a controller simultaneously
or sequentially energizes the first and second electrode pairs for more rapid advancement
within the body lumen than is possible from a single electrode pair, wherein the electrode
pairs are longitudinally spaced apart a distance ensuring that muscular lumen tissue
contracted by one electrode pair will have enough time to relax before the self-advancing
next electrode pair reaches the same muscular lumen tissue. In the same or a different
example, the medical catheter is a sheath installed over an existing endoscope insertion
tube improving the performance of existing endoscopes.
[0011] Brief Description of the Figures
[0012] FIGURE 1 is a schematic view of an embodiment of a medical instrument including a
medical catheter and a controller, wherein the controller is located in a handpiece
which is shown in cut-away;
[0013] FIGURE 2 is a cross sectional view of the distal portion of the medical catheter
of Figure 1 inserted within a body lumen of a patient, wherein the medical catheter
of Figure 2 has been rotated ninety degrees from the orientation shown in Figure 1
;
[0014] FIGURE 3 is a view of the medical catheter of Figure 2 taken along lines 3-3 of Figure
2;
[0015] FIGURE 4 is a cross sectional view of the medical catheter of Figure 2 taken along
lines 4-4 of Figure 2;
[0016] FIGURE 5 is a schematic drawing showing the electrical connections between the controller
of Figure 1 and the electrodes of the pods of the medical catheter of Figure 2;
[0017] FIGURE 6 is a view, as in Figure 1, but showing a first alternate embodiment of the
medical catheter, wherein the medical catheter is a sheath and is adapted for installation
over a flexible endoscope insertion tube;
[0018] FIGURE 7 is a cross sectional view of the distal portion of the medical catheter
of Figure 6, wherein the medical catheter of Figure 7 has been rotated ninety degrees
from the orientation shown in Figure 6;
[0019] FIGURE 8 is a view of the medical catheter of Figure 7 taken along lines 8-8 of Figure
7; and
[0020] FIGURE 9 is an enlarged cross-sectional view of a second alternate embodiment of
the medical catheter showing two pods of the medical catheter, wherein each pod includes
an inflatable balloon.
[0021] Detailed Description of the Invention
[0022] Before explaining the present invention in detail, it should be noted that the invention
is not limited in its application or use to the details of construction and arrangement
of parts illustrated in the accompanying drawings and description. The illustrative
embodiments of the invention may be implemented or incorporated in other embodiments,
variations and modifications, and may be practiced or carried out in various ways.
Furthermore, unless otherwise indicated, the terms and expressions employed herein
have been chosen for the purpose of describing the illustrative embodiments of the
present invention for the convenience of the reader and are not for the purpose of
limiting the invention.
[0023] It is understood that any one or more of the following-described expressions, embodiments,
examples, etc. can be combined with any one or more of the other following-described
expressions, embodiments, examples, etc.
[0024] Referring now to the Figures, wherein like numerals represent like elements throughout,
Figures 1-5 illustrate an embodiment of the invention. A first expression of the embodiment
of Figures 1-5 is for a medical instrument 10 including a medical catheter 12. The
medical catheter 12 has a distal end 14, a centerline 16, a circumferentially-protruding
first pod 18, and a circumferentially-protruding second pod 20. The distal end 20
is insertable within a body lumen 22 of a patient having muscular lumen tissue 24
surrounding the body lumen 22. The centerline 16 defines a longitudinal axis when
the medical catheter 12 is in an unflexed state. The first pod 18 has a first exterior
surface 26 with a first surface portion 28. The first surface portion 28 includes
an energizable first electrode pair 30 of circumferentially-spaced-apart electrodes
32 and 34. The first surface portion 28 has a shape adapted to advance the first pod
18 (and hence the medical catheter 12) within the body lumen 22 upon contraction of
muscular lumen tissue 24 contacting an energized first electrode pair 30. The second
pod 20 has a second exterior surface 36 with a second surface portion 38. The second
surface portion 38 includes an energizable second electrode pair 40 of circumferentially-spaced-apart
electrodes 42 and 44. The second surface portion 38 has a shape adapted to advance
the second pod 20 (and hence the medical catheter 12) within the body lumen 22 upon
contraction of muscular lumen tissue 24 contacting an energized second electrode pair
40. The second pod 20 is proximally longitudinally spaced apart from the first pod
18.
[0025] In one deployment of the first expression of the embodiment of Figures 1-5, the first
pod 18 is disposed proximate the distal end 14. In one variation, the first pod 18
is disposed at the distal end 14. In one variation, the first and second pods 18 and
20 are fully-circumferential protrusions. In one modification, each of the first and
second surface portions 28 and 38 is an angled surface (such as a surface having a
proximally-tapering conical shape as shown in Figure 2), wherein contracting muscular
lumen tissue 24 applies a force to the angled surface which advances the medical catheter
12 within the body lumen 22, as can be appreciated by the artisan. Other surface shapes
are left to those skilled in the art. In one illustration, the first and second surface
portions 28 and 38 each have at least one additional electrode pair (not shown).
[0026] In a first implementation of the first expression of the embodiment of Figures 1-5,
the medical catheter 12 is a flexible endoscope insertion tube 46 having a working
channel 47. In one variation, the endoscope insertion tube 46 includes a visualization
device 48 disposed at the distal end 14. In one modification, the endoscope insertion
tube 46 includes an illumination device 49 disposed at the distal end 114.
[0027] In a second implementation, shown in the first alternate embodiment of Figures 6-8,
the medical catheter 112 is a sheath 150 and is adapted for installation over a flexible
endoscope insertion tube 146 having a working channel 147. In one variation, the endoscope
insertion tube 146 includes a visualization device 148 disposed at the distal end
114. In one modification, the endoscope insertion tube 146 includes an illumination
device 149 disposed at the distal end 14.
[0028] In a first enablement of the first expression of the embodiment of Figures 1-5, the
first and second exterior surfaces 26 and 36 have a fixed shape when disposed within
the body lumen 22. Thus, in this enablement, the first and second exterior surfaces
26 and 36 are non-deformable when present in and moved through the body lumen 22.
[0029] In a second enablement, shown in the second alternate embodiment of Figure 9, the
first pod 218 includes an inflatable first balloon 252, wherein the first exterior
surface 226 is an inflated exterior surface of the first balloon 252, and the second
pod 220 includes an inflatable second balloon 254, wherein the second exterior surface
236 is an inflated exterior surface of the second balloon 254. In one construction,
the medical catheter 212 includes a first inflation lumen 253 in fluid communication
with the first balloon 252 and a second inflation lumen 255 in fluid communication
with the second balloon 254.
[0030] In one extension of the first expression of the embodiment of Figures 1-5, the medical
instrument 10 also includes a controller 56 adapted to energize the first electrode
pair 30 for contraction of muscular lumen tissue 24 contacting the first electrode
pair 30 and adapted to energize the second electrode pair 40 for contraction of muscular
lumen tissue 24 contacting the second electrode pair 40. In one example, the medical
instrument 10 includes a handpiece 58 attached to the proximal end 60 of the medical
catheter 12, wherein the handpiece 58 includes the controller 56 with the controller
56 having a button 62 for a user to activate the controller 56. In one variation,
as shown in Figure 5, wires 64 connect the controller 56 to the electrodes 32, 34,
42, and 44. In one illustration, the controller 56 uses the wires 64 to apply a positive
DC voltage to electrodes 32 and 42 and a negative DC voltage to electrodes 34 and
44 at a predetermined frequency such as, for example, 50 Hertz.
[0031] In a first application, the controller 56 is adapted to substantially simultaneously
energize the first and second electrode pairs 30 and 40 as long as the controller
56 is activated by a user. In this application, the speed of travel of the medical
catheter 12 in the body lumen 22 from the simultaneous energizing is a predetermined
speed, and the time for contracted muscular lumen tissue 24 no longer in contact with
an energized electrode 32, 34, 42 and 44 to relax is a predetermined time (such as
a speed and time determined by experimentation). In this application, the first and
second electrode pairs 30 and 40 are longitudinally adjacent electrode pairs (meaning
there are no longitudinally-intervening electrode pairs). In this application, the
first and second electrode pairs 30 and 40 are longitudinally spaced apart a distance.
The distance is chosen for contracted muscular lumen tissue 24 at a longitudinal location
of the body lumen 22 contacted by the first electrode pair 30 to at least relax after
the first electrode pair 30 moves past the longitudinal location and before the advancing
second electrode pair 40 reaches the longitudinal location. In one illustration the
contracted muscular lumen tissue 24 will at least reach a relaxed state if such distance
is at least five centimeters. In one example, the controller 56 substantially simultaneously
energizes the first and second electrode pairs 30 and 40 for a continuous period of
time (such as until the distal end 14 of the medical catheter 12 is at its final location
in the body lumen 22) at a predetermined frequency (such as, for example, 50 Hertz).
[0032] In a second application, the controller 56 is adapted to sequentially energize the
first and second electrode pairs 30 and 40 as long as the controller 56 is activated
by a user. In this application, the speed of travel of the medical catheter 12 in
the body lumen 22 from the sequential energizing is a predetermined speed, and the
time for contracted muscular lumen tissue 24 no longer in contact with an energized
electrode 32, 34, 42 and 44 to relax is a predetermined time (such as a speed and
time determined by experimentation). In this application the first and second electrode
pairs 30 and 40 are longitudinally adjacent electrode pairs (meaning there are no
longitudinally-intervening electrode pairs). In this application the first and second
electrode pairs 30 and 40 are longitudinally spaced apart a distance. The distance
is chosen for contracted muscular lumen tissue 24 at a longitudinal location of the
body lumen 22 contacted by the first electrode pair 30 to at least relax after the
first electrode pair 30 moves past the longitudinal location and before the advancing
second electrode pair 40 reaches the longitudinal location. In one illustration, the
contracted muscular lumen tissue 24 will at least reach a relaxed state if such distance
is at least five centimeter. In one example, the controller 56 energizes the first
electrode pair 30 for a period of time (such as five seconds) and then shuts off the
first electrode pair 30 for a period of time (such as five seconds), then energizes
the second electrode pair 40 for a period of time (such as five seconds) and then
shuts off the second electrode pair 40 for a period of time (such as five seconds),
then energizes the first electrode pair 30 for a period of time (such as five seconds)
and then shuts off the first electrode pair 30 for a period of time (such as five
seconds), then energizes the second electrode pair 40 for a period of time (such as
five seconds) and then shuts off the second electrode pair 40 for a period of time
(such as five seconds), etc., wherein during the time it takes for contracted muscular
lumen tissue 24 no longer in contact with an energized electrode 32, 34, 42 and 44
to relax, the first electrode pair 30 leaves a lumen tissue location and the second
electrode pair 40 contacts the same lumen tissue location.
[0033] It is noted that applicant was the first to realize that proper longitudinal spacing
of the first and second pods 18 and 20 would make a multiple-pod medical catheter
12 workable as such proper spacing would prevent a second pod 20 from encountering
muscular lumen tissue 24 that was still in a contracted state from a previously contacting
first pod 18.
[0034] A first expression of the alternate embodiment of Figures 6-8 is for a medical instrument
110 including a medical catheter 112 and a controller 156. The medical catheter 112
is a sheath 150 and is adapted for installation over a flexible endoscope insertion
tube 146. The installed medical catheter 112 has a distal end 114, a centerline 116,
a circumferentially-protruding first pod 118 including electrodes 132 and 134, and
a circumferentially-protruding second pod 120 including electrodes 142 and 144 as
described for the medical catheter 12 in paragraph [0024]. The controller 156 is adapted
to energize the first electrode pair 130 for contraction of muscular lumen tissue
(shown as 24 in Figure 2) contacting the first electrode pair 130 and is adapted to
energize the second electrode pair 140 for contraction of muscular lumen tissue (shown
as 24 in figure 2) contacting the second electrode pair 140.
[0035] It is noted that the second enablement, extensions, applications, etc. of the first
expression of the embodiment of Figures 1-5 are equally applicable to the first expression
of the alternate embodiment of Figures 6-8.
[0036] A method for using a medical catheter 212, wherein the medical catheter 212 is as
described for the medical catheter 10 in paragraph [0024] with the second enablement
as described in paragraph [0028], may include inserting the distal end 214 within
the body lumen (shown as 22 in Figure 2). The method may further include manually
advancing the medical catheter 212 within the body lumen a first distance with the
first and second balloons 252 and 254 deflated and with the first and second electrode
pairs 230 and 240 (of circumferentially-spaced-apart electrodes 232 & 234 and 242
& 244) not energized. The method may further include inflating the first and second
balloons 252 and 254. The method may further include energizing the first electrode
pair 230 after the first balloon 252 has been inflated. The method may further include
energizing the second electrode pair 240 after the second balloon 254 has been inflated.
[0037] In a first enablement of the method, the first and second electrode pairs 230 and
240 are substantially simultaneously energized for self-advancing the medical catheter
212 within the body lumen a second distance. In a second enablement, the first and
second electrode pairs 230 and 240 are sequentially energized for self-advancing the
medical catheter 212 within the body lumen a second distance. In a third enablement,
the first and second electrode pairs 230 and 240 are substantially simultaneously
energized during a certain time period(s) and are sequentially energized during a
different time period(s).
[0038] In a first employment of the method, the medical catheter 212 is manually advanced
before the first and second electrode pairs 230 and 240 are energized. In a second
employment, the first and second electrode pairs 230 and 240 are energized before
the medical catheter 212 is manually advanced.
[0039] In one utilization of the method, the body lumen is a colon of a human or other mammal.
In another utilization, the body lumen is an upper gastrointestinal tract. In a further
utilization, the body lumen is an artery lumen. Other body lumens are left to those
skilled in the art.
[0040] In one embellishment of any of the embodiments and method, and with reference to
Figures 1-2 and 6-7, the medical instrument 10 and 110 includes a circumferentially-protruding
third pod 70 and 170 proximally longitudinally spaced apart from the second pod 20
and 120 and having an energizable third electrode pair 72 and 172 of circumferentially-spaced-apart
electrodes 74 & 174 and 76 & 176. In one variation, as shown in Figure 5, wires 64
electrically connect the controller 56 to the electrodes 32 and 34 of the first electrode
pair 30, the electrodes 42 and 44 of the second electrode pair 40, and the electrodes
74 and 76 of the third electrode pair 72.
[0041] Several benefits and advantages are obtained from one or more of the expressions
of several embodiments and the method of using the invention. In one example, the
pods are disposed proximate the distal end so that the self-advancing medical catheter
will not form undesirable loops, as can be appreciated by those skilled in the art.
In the same or a different example, each pod includes an inflatable balloon which
supports the electrodes, which is deflated (resulting in a smaller catheter transverse
cross-sectional size within the body lumen) when manual advancement of the medical
catheter within the body lumen is desired, and which is inflated only when self-advancement
of the medical catheter within the body lumen is desired. In the same or a different
example, a controller simultaneously or sequentially energizes the first and second
electrode pairs for more rapid advancement within the body lumen than is possible
from a single electrode pair, wherein the electrode pairs are longitudinally spaced
apart a distance ensuring that muscular lumen tissue contracted by one electrode pair
will have enough time to relax before the self-advancing next electrode pair reaches
the same muscular lumen tissue. In the same or a different example, the medical catheter
is a sheath installed over an existing endoscope insertion tube improving the performance
of existing endoscopes.
[0042] While the present invention has been illustrated by a description of several expressions
of embodiments and a method, it is not the intention of the applicants to restrict
or limit the scope of the appended claims to such detail. Numerous other variations,
changes, and substitutions will occur to those skilled in the art without departing
from the scope of the invention. For instance, the medical instrument of the invention
has application in robotic assisted surgery taking into account the obvious modifications
of such systems, components and methods to be compatible with such a robotic system.
It will be understood that the foregoing description is provided by way of example,
and that other modifications may occur to those skilled in the art without departing
from the scope of the appended Claims.
1. A medical instrument (10, 110) comprising a medical catheter (12, 112, 212),
wherein the medical catheter (12,112,212) includes:
a) a distal end (14, 114, 214) insertable within a body lumen (22) of a patient having
muscular lumen tissue (24) surrounding the body lumen (22);
b) a centerline (16, 116) which defines a longitudinal axis when the medical catheter
(12, 112, 212) is in an unflexed state;
c) a circumferentially-protruding first pod (18, 118, 218) having a first exterior
surface (26, 226) with a first surface portion (28) which includes an energizable
first electrode pair (30, 130, 230) of circumferentially-spaced-apart electrodes (32,
34; 132, 134; 232, 234) and which has a shape adapted to advance the first pod (18,
118) within the body lumen (22) upon contraction of muscular lumen tissue (24) contacting
an energized first electrode pair (30, 130, 230); and
d) a circumferentially-protruding second pod (20, 120, 220) having a second exterior
surface (36, 236) with a second surface portion (38) which includes an energizable
second pair (40, 140, 240) of circumferentially-spaced-apart electrodes (42, 44; 142,
144; 242, 244) and which has a shape adapted to advance the second pod (20, 120, 220)
within the body lumen (22) upon contraction of muscular lumen tissue (24) contacting
an energized second electrode pair (40, 140, 240), wherein the second pod (20,120,
220) is proximally longitudinally spaced apart from the first pod (18, 118, 218).
2. The medical instrument (10, 110) of claim 1, wherein the medical catheter (12, 112,
212) is a flexible endoscope insertion tube (44, 146).
3. The medical instrument (10, 110) of claim 1, wherein the medical catheter (12, 112,
212) is a sheath (150) and is adapted for installation over a flexible endoscope insertion
tube (44, 146).
4. The medical instrument (10, 110) of claim 2 or 3, wherein the endoscope insertion
tube (44, 146) includes a visualization device (48, 148) disposed at the distal end
(14, 114, 214).
5. The medical instrument (10, 110) of claim 1, wherein the first and second exterior
surfaces (36, 236) have a fixed shape when disposed within the body lumen (22).
6. The medical instrument (10, 110) of claim 1, wherein the first pod (18, 118, 218)
includes an inflatable first balloon (252), wherein the first exterior surface (26,
226) is an inflated exterior surface of the first balloon, wherein the second pod
(20, 120, 220) includes an inflatable second balloon (254), wherein the second exterior
surface (36, 236) is an inflated exterior surface of the second balloon (254).
7. The medical instrument (10, 110) of claim 1, also including a controller (56, 156)
adapted to energize the first electrode pair (30, 130, 230) for contraction of muscular
lumen tissue (24) contacting the first electrode pair (30, 130, 230) and adapted to
energize the second electrode pair (40, 140, 240) for contraction of muscular lumen
tissue (24) contacting the second electrode pair (40, 140, 240).
8. The medical instrument (10, 110) of claim 7, wherein the controller (56, 156) is adapted
to substantially simultaneously energize the first and second electrode pairs as long
as the controller (56, 156) is activated by a user, wherein the speed of travel of
the medical catheter (12, 112, 212) in the body lumen (22) from the simultaneous energizing
is a predetermined speed, wherein the time for contracted muscular lumen tissue (24)
no longer in contact with an energized electrode to relax is a predetermined time,
wherein the first and second electrode pairs are longitudinally adjacent electrode
pairs and are longitudinally spaced apart a distance, and wherein the distance is
chosen for contracted muscular lumen tissue (24) at a longitudinal location of the
body lumen (22) contacted by the first electrode pair (30, 130, 230) to at least relax
after the first electrode pair (30, 130, 230) moves past the longitudinal location
and before the advancing second electrode pair (40, 140, 240) reaches the longitudinal
location.
9. The medical instrument (10, 110) of claim 7, wherein the controller (56, 156) is adapted
to sequentially energize the first and second electrode pairs as long as the controller
(56, 156) is activated by a user, wherein the speed of travel of the medical catheter
(12, 112, 212) in the body lumen (22) from the sequential energizing is a predetermined
speed, wherein the time for contracted muscular lumen tissue (24) no longer in contact
with an energized electrode to relax is a predetermined time, wherein the first and
second electrode pairs are longitudinally adjacent electrode pairs and are longitudinally
spaced apart a distance, and wherein the distance is chosen for contracted muscular
lumen tissue (24) at a longitudinal location of the body lumen (22) contacted by the
first electrode pair (30, 130, 230) to at least relax after the first electrode pair
(30, 130, 230) moves past the longitudinal location and before the advancing second
electrode pair (40, 140, 240) reaches the longitudinal location.
10. The medical instrument (10, 110) of claim 7 wherein the medical catheter (12, 112,
212) is a sheath (150) and is adapted for installation over a flexible endoscope insertion
tube.
1. Medizinisches Instrument (10, 110) mit einem medizinischem Katheter (12, 112, 212),
wobei der medizinische Katheter (12, 112, 212) enthält:
a) ein distales Ende (14, 114, 214), das in ein Körperlumen (22) eines Patienten mit
muskulärem Lumengewebe (24), das das Körperlumen (22) umgibt, einführbar ist;
b) eine Mittellinie (16, 116), die eine Längsachse definiert, wenn sich der medizinische
Katheter (12, 112, 212) in einem ungebogenem Zustand befindet;
c) einen kreisumfänglich vorstehenden ersten Halter (18, 118, 218) mit einer ersten
Außenfläche (26, 226) mit einem ersten Flächenabschnitt (28), der ein einschaltbares
erstes Elektrodenpaar (30, 130, 230) mit kreisumfänglich im Abstand voneinander angeordneten
Elektroden (32, 34; 132, 134; 232, 234) enthält und eine Gestalt zum Vorbewegen des
ersten Halters (18, 118) in dem Körperlumen (22) bei Kontraktion von muskulärem Lumengewebe
(24), das ein eingeschaltetes erstes Elektrodenpaar (30, 130, 230) kontaktiert, aufweist;
und
d) einen kreisumfänglich vorstehenden zweiten Halter (20, 120, 220) mit einer zweiten
Außenfläche (36, 236) mit einem zweiten Flächenabschnitt (38), der ein einschaltbares
zweites Paar (40, 140, 240) von kreisumfänglich im Abstand voneinander angeordneten
Elekroden (42, 44; 142, 144; 242, 244) enthält und der eine Gestalt zum Vorbewegen
des zweiten Halters (20, 120, 220) in dem Körperlumen (22) bei Kontraktion von muskulärem
Lumengewebe (24), das ein eingeschaltetes zweites Elektrodenpaar (40, 140, 240) kontaktiert,
aufweist, wobei der zweite Halter (20, 120, 220) proximal in Längsrichtung im Abstand
von dem ersten Halter (18, 118, 218) angeordnet ist.
2. Medizinisches Instrument (10, 110) nach Anspruch 1, dadurch gekennzeichnet, dass der medizinische Katheter (12, 112, 212) ein flexibles Endoskopeinfiihrrohr (44,
146) ist.
3. Medizinisches Instrument (10, 110) nach Anspruch 1, dadurch gekennzeichnet, dass der medizinische Katheter (12, 112, 212) eine Hülse (150) ist und zur Installation
über einem flexiblen Endoskopeinführrohr (44, 146) gestaltet ist.
4. Medizinisches Instrument (10, 110) nach Anspruch 2 oder 3, dadurch gekennzeichnet, dass das Endoskopeinführrohr (44, 146) eine Visualisierungseinrichtung (48, 148) enthält,
die an dem distalen Ende (14, 114, 214) angeordnet ist.
5. Medizinisches Instrument (10, 110) nach Anspruch 1, dadurch gekennzeichnet, dass die ersten und zweiten Außenflächen (36, 236) eine feste Gestalt aufweisen, wenn
sie in dem Körperlumen (22) angeordnet sind.
6. Medizinisches Instrument (10, 110) nach Anspruch 1, dadurch gekennzeichnet, der erste Halter (18, 118, 218) einen aufblasbaren ersten Ballon (252) enthält,
dass die erste Außenfläche (26, 226) eine aufblasbare Außenfläche des ersten Ballons
ist, dass der zweite Halter (20, 120, 220) einen aufblasbaren zweiten Ballon (254)
enthält, und dass die zweite Außenfläche (36, 236) eine aufblasbare Außenfläche des
zweiten Ballons (254) ist.
7. Medizinisches Instrument (10, 110) nach Anspruch 1, außerdem enthaltend eine Steuereinrichtung
(56, 156) zum Einschalten des ersten Elektrodenpaares (30, 130, 230) zur Kontraktion
von muskulärem Lumengewebe (24), das das erste Elektrodenpaar (30, 130, 230) kontaktiert,
und Einschalten des zweiten Elektrodenpaares (40, 140, 240) zur Kontraktion von muskulärem
Lumengewebe (24), das das zweite Elektrodenpaar (40, 140, 240) kontaktiert.
8. Medizinisches Instrument (10, 110) nach Anspruch 1, dadurch gekennzeichnet, dass die Steuereinrichtung (56, 156) zum im wesentlichen simultanen Einschalten der ersten
und zweiten Elektrodenpaare, solange die Steuereinrichtung (56, 156) durch einen Benutzer
aktiviert ist, gestaltet ist, dass die Bewegungsgeschwindigkeit des medizinischen
Katheters (12, 112, 212) in dem Körperlumen (22) anhand des simultanen Einschaltens
eine vorab festgelegte Geschwindigkeit ist, dass die Zeit, während derer kontrahiertes
muskuläres Lumengewebe (24) nicht länger mit einer eingeschalteten Elektrode in Kontakt
steht, um zu entspannen, eine vorab festgelegte Zeit ist, dass die ersten und zweiten
Elektrodenpaare in Längsrichtung benachbarte Elektrodenpaare sind und in Längsrichtung
in einem Abstand zueinander angeordnet sind und dass der Abstand so ausgewählt ist,
dass kontrahiertes muskuläres Lumengewebe (24) an einer Stelle in Längsrichtung des
Körperlumens (22), die von dem ersten Elektrodenpaar (30, 130, 230) kontaktiert wird,
zumindest entspannt, nachdem sich das erste Elektrodenpaar (30, 130, 230) an der Stelle
in Längsrichtung vorbei bewegt und bevor das sich vorbewegende zweite Elektrodenpaar
(40, 140, 230) die Stelle in Längsrichtung erreicht.
9. Medizinisches Instrument (10, 110) nach Anspruch 7, dadurch gekennzeichnet, dass die Steuereinrichtung (56, 156) zum sequentiellen Einschalten der ersten und zweiten
Elektrodenpaare, solange die Steuereinrichtung (56, 156) von einem Benutzer aktiviert
ist, gestaltet ist, dass die Bewegungsgeschwindigkeit des medizinischen Katheters
(12, 112, 212) in dem Körperlumen (22) anhand des sequentiellen Einschaltens eine
vorab festgelegte Geschwindigkeit ist, dass die Zeit, während derer das kontrahierte
muskuläre Lumengewebe (24) mit einer eingeschalteten Elektrode nicht länger in Kontakt
ist, um zu entspannen, eine vorab festgelegte Zeit ist, dass die ersten und zweiten
Elektrodenpaare in Längsrichtung benachbarte Elektrodenpaare sind und in Längsrichtung
in einem Abstand voneinander angeordnet sind, und dass der Abstand so ausgewählt ist,
dass kontrahiertes muskuläres Lumengewebe (24) an einer Stelle in Längsrichtung des
Körperlumens (22), die von dem ersten Elektrodenpaar (30, 130, 230) kontaktiert wird,
zumindest entspannt, nachdem sich das erste Elektrodenpaar (30, 130, 230) an der Stelle
in Längsrichtung vorbei bewegt und bevor das sich vorbewegende zweite Elektrodenpaar
(40, 140, 240) die Stelle in Längsrichtung erreicht.
10. Medizinisches Instrument (10, 110) nach Anspruch 7, dadurch gekennzeichnet, dass der medizinische Katheter (12, 112, 212) eine Hülse (150) ist und zur Installation
über einem flexiblen Endoskopeinführrohr gestaltet ist.
1. Instrument médical (10, 110) comprenant un cathéter médical (12, 112, 212), dans lequel
le cathéter médical (12, 112, 212) inclut :
a) une extrémité distale (14, 114, 214) qui peut être insérée à l'intérieur d'une
lumière de corps (22) d'un patient ayant un tissu de lumière musculaire (24) qui entoure
la lumière de corps (22) ;
b) une ligne centrale (16, 116) qui définit un axe longitudinal lorsque le cathéter
médical (12, 112, 212) se trouve dans un état non fléchi ;
c) un premier fuseau qui fait saillie de manière circonférentielle (18, 118, 218)
et qui présente une première surface extérieure (26, 226) avec une première partie
de surface (28) qui inclut une première paire d'électrodes pouvant être activées (30,
130, 230) d'électrodes espacées de manière circonférentielle (32, 34 ; 132, 134 ;
232, 234) et qui présente une forme adaptée de manière à faire progresser le premier
fuseau (18, 118) à l'intérieur de la lumière de corps (22) lors d'une contraction
du tissu de lumière musculaire (24) qui entre en contact avec une première paire d'électrodes
activées (30, 130, 230) ; et
d) un second fuseau qui fait saillie de manière circonférentielle (20, 120, 220) et
qui présente une seconde surface extérieure (36, 236) avec une seconde partie de surface
(38) qui inclut une seconde paire d'électrodes pouvant être activées (40, 140, 240)
d'électrodes espacées de manière circonférentielle (42, 44 ; 142, 144 ; 242, 244)
et qui présente une forme adaptée de manière à faire progresser le second fuseau (20,
120, 220) à l'intérieur de la lumière de corps (22) lors d'une contraction du tissu
de lumière musculaire (24) qui entre en contact avec une seconde paire d'électrodes
activées (40, 140, 240), dans lequel le second fuseau (20, 120, 220) est espacé de
manière longitudinale et proximale à partir du premier fuseau (18, 18, 218).
2. Instrument médical (10, 110) selon la revendication 1, dans lequel le cathéter médical
(12, 112, 212) est un tube d'insertion d'endoscope flexible (44, 146).
3. Instrument médical (10, 110) selon la revendication 1, dans lequel le cathéter médical
(12, 112, 212) est une gaine (150) et est adapté pour une installation sur un tube
d'insertion d'endoscope flexible (44, 146).
4. Instrument médical (10, 110) selon la revendication 2 ou la revendication 3, dans
lequel le tube d'insertion d'endoscope (44, 146) inclut un dispositif de visualisation
(48, 148) disposé au niveau de l'extrémité distale (14, 114, 214).
5. Instrument médical (10, 110) selon la revendication 1, dans lequel les première et
seconde surfaces extérieures (36, 236) présentent une forme fixe quand elles sont
disposées à l'intérieur de la lumière de corps (22).
6. Instrument médical (10, 110) selon la revendication 1, dans lequel le premier fuseau
(18, 118, 218) inclut un premier ballonnet gonflable (252), dans lequel la première
surface extérieure (26, 226) est une surface extérieure gonflée du premier ballonnet,
dans lequel le second fuseau (20, 120, 220) inclut un second ballonnet gonflable (254),
dans lequel la seconde surface extérieure (36, 236) est une surface extérieure gonflée
du second ballonnet (254).
7. Instrument médical (10, 110) selon la revendication 1, comprenant également un contrôleur
(56, 156) apte à activer la première paire d'électrodes (30, 130, 230) pour une contraction
du tissu de lumière musculaire (24) qui entre en contact avec la première paire d'électrodes
(30, 130, 230), et apte à activer la seconde paire d'électrodes (40, 140, 240) pour
une contraction du tissu de lumière musculaire (24) qui entre en contact avec la seconde
paire d'électrodes (40, 140, 240).
8. Instrument médical (10, 110) selon la revendication 7, dans lequel le contrôleur (56,
156) est apte à activer de manière sensiblement simultanée la première paire d'électrodes
et la seconde paire d'électrodes tant que le contrôleur (56, 156) est activé par un
utilisateur, dans lequel la vitesse de déplacement du cathéter médical (12, 112, 212)
dans la lumière de corps (22) à partir de l'activation simultanée est une vitesse
prédéterminée, dans lequel la durée pendant laquelle le tissu de lumière musculaire
contracté (24) n'est plus en contact avec une électrode activée pour se détendre est
une durée prédéterminée, dans lequel la première paire d'électrodes et la seconde
paire d'électrodes sont des paires d'électrodes adjacentes de manière longitudinale
et sont espacées de manière longitudinale d'une distance, et dans lequel la distance
est choisie pour qu'un tissu musculaire de lumière contracté (24) au niveau d'un emplacement
longitudinal de la lumière de corps (22) qui est entré avec contact par la première
paire d'électrodes (30, 130, 230) se détende au moins une fois que la première paire
d'électrodes (30, 130, 230) s'est déplacée après l'emplacement longitudinal et avant
que la seconde paire d'électrodes qui progressent (40, 140, 240) n'aient atteint l'emplacement
longitudinal.
9. Instrument médical (10, 110) selon la revendication 7, dans lequel le contrôleur (56,
156) est apte à activer de manière de manière séquentielle la première paire d'électrodes
et la seconde paire d'électrodes tant que le contrôleur (56, 156) est activé par un
utilisateur, dans lequel la vitesse de déplacement du cathéter médical (12, 112, 212)
dans la lumière de corps (22) à partir de l'activation séquentielle est une vitesse
prédéterminée, dans lequel la durée pendant laquelle le tissu de lumière musculaire
contracté (24) n'est plus en contact avec une électrode activée pour se détendre est
une durée prédéterminée, dans lequel la première paire d'électrodes et la seconde
paire d'électrodes sont des paires d'électrodes adjacentes de manière longitudinale
et sont espacées de manière longitudinale d'une distance, et dans lequel la distance
est choisie pour qu'un tissu musculaire de lumière contracté (24) au niveau d'un emplacement
longitudinal de la lumière de corps (22) qui est entré avec contact par la première
paire d'électrodes (30, 130, 230) se détende au moins une fois que la première paire
d'électrodes (30, 130, 230) s'est déplacée après l'emplacement longitudinal et avant
que la seconde paire d'électrodes qui progressent (40, 140, 240) n'aient atteint l'emplacement
longitudinal.
10. Instrument médical (10, 110) selon la revendication 7, dans lequel le cathéter médical
(12, 112, 212) est une gaine (150) et est adapté pour une installation sur un tube
d'insertion d'endoscope flexible.
REFERENCES CITED IN THE DESCRIPTION
This list of references cited by the applicant is for the reader's convenience only.
It does not form part of the European patent document. Even though great care has
been taken in compiling the references, errors or omissions cannot be excluded and
the EPO disclaims all liability in this regard.
Patent documents cited in the description